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重金屬污染降低水稻土微生物商并改變plfa群落結(jié)構(gòu)——蘇南某地污染(編輯修改稿)

2025-05-01 23:53 本頁面
 

【文章內(nèi)容簡介】 和anteiso等表征革蘭氏陽性細(xì)菌的脂肪酸在污染下受到抑制而革蘭氏陰性菌增加。Kelly等[24]用相同方法發(fā)現(xiàn)Zn污染土壤中指示菌根真菌的PLFA相對含量下降。Kuperman等對一個多種重金屬復(fù)合污染的草原土壤( mgkg1)的研究表明,細(xì)菌和真菌生物量較未污染的對照( mgkg1)分別下降了29%和45% [16]。重金屬污染對土壤微生物區(qū)系和群落結(jié)構(gòu)的影響可能因不同的研究對象而不同。在供試的稻田系統(tǒng),重金屬污染下的土壤微生物系統(tǒng)PLFA群落結(jié)構(gòu)的變化與上述對自然土壤的結(jié)果有些不同。一般認(rèn)為,微生物對土壤污染表現(xiàn)出靈敏的響應(yīng),而細(xì)菌比真菌對重金屬污染更敏感[25]。這里的結(jié)果是,污染下微生物商降低了20%左右,而真菌、細(xì)菌PLFA的量的變化程度更大(達(dá)30%~60%)。盡管前人也報道了污染下真菌PLFA的顯著降低,但這里觀察到真菌/細(xì)菌PLFA比值在污染下降低了70%以上。因此,我們認(rèn)為,重金屬污染雖然同樣降低了稻田的微生物生物量和微生物商,但是PLFA分析顯示出這種影響更大地表現(xiàn)為相對組成的變化,真菌/細(xì)菌比值和革蘭氏陽性菌/革蘭氏陰性菌比值的大幅度改變無疑會影響到C、N等營養(yǎng)元素的循環(huán)過程并由此會深刻影響到土壤質(zhì)量和生態(tài)功能的變化,當(dāng)然這些還需要進(jìn)一步的野外和實(shí)驗(yàn)室的研究。參考文獻(xiàn):[1] 安中華, 董元華, 安瓊, 等. 蘇南某市農(nóng)田土壤環(huán)境質(zhì)量評價及其分級. 土壤, 2004, 36(6): 631635. An Zhonghua, Dong Yuanhua, An Qiong, et al. Evaluation and grading of soil environmental quality of farmlands somewhere in south Jangsu[J]. Soils, 2004, 36(6): 631635.[2] 劉洪蓮, 李戀卿, 潘根興. 蘇南某些水稻土中Cu, Pb, Hg, As的剖面分布及其影響因素[J]. 農(nóng)業(yè)環(huán)境科學(xué)學(xué)報, 2006, 25(5): 12211227.Liu Honglian, Li Lianqing, Pan Genxing. Profile distribution of total Cu, Pb, Hg, As in some paddy soils from the southern Jiangsu, China and the influencing factors[J]. Journal of AgroEnvironment Science, 2006, 25(5): 12211227.[3] BAATH E. Effect of heavy metals in soils on microbial processes and population(a review)[J]. Water, Air, and Soil Pollution, 1989, 58: 17221736. [4] MCCARTHY C M, MURRAY L. Viability and metabolic features of bacteria indigenous to a contaminated deep aquifer[J]. Microbial Ecology, 1996, 32: 305321.[5] HAMEL C, HANSON K, SELLES F, et al. Seasonal and longterm resourcerelated variations in soil microbial munities in wheatbased rotations of the Canadian prairie[J]. Soil Biology and Biochemistry, 2006, 38: 21042116.[6] Yao Huaiying, He Zhenli, WILSON M J, et al. Microbial biomass and munity structure in a sequence of soils with increasing fertility and changing land use[J]. Microbial Ecology, 2000, 40(3): 223237.[7] 趙祥偉, 駱永明, 滕應(yīng), 等. 重金屬復(fù)合污染農(nóng)田土壤的微生物群落遺傳多樣性研究[J]. 環(huán)境科學(xué)學(xué)報, 2005, 25(2): 186191.Zhao Xiangwei, Luo Yongming, Teng Ying, et al. Genetic diversity of microbial munities in farmland soils contaminated with mixed heavy metals[J]. Acta Scientiae Circumstantiae, 2005, 25(2): 186191.[8] 騰應(yīng), 黃昌勇, 駱永明, 等. 重金屬復(fù)合污染下紅壤微生物活性及其群落結(jié)構(gòu)的變化[J]. 土壤學(xué)報, 2005, 42(5): 819828.Teng Ying, Huang Changyong, Luo Yongming, et al. Changes in microbial activities and its munity structure of red earths polluted with mixed heavy metals[J]. Acta Pedologica Sinica, 2005, 42(5): 819828.[9] 廖敏, 陳雪花, 陳承利, 等. 土壤青菜系統(tǒng)中鉛污染對土壤微生物活性及多樣性的影響[J]. 環(huán)境科學(xué)學(xué)報, 2007, 27(2): 220227.Liao Min, Chen Xuehua, Chen Chengli, et al. The influence of lead contamination on so
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